A NaV3(PO4)3@C hierarchical nanofiber in high alignment: exploring a novel high-performance anode for aqueous rechargeable sodium batteries. Issue 12 (13th March 2017)

Record Type:: Journal Article
Title:: A NaV3(PO4)3@C hierarchical nanofiber in high alignment: exploring a novel high-performance anode for aqueous rechargeable sodium batteries. Issue 12 (13th March 2017)
Main Title:: A NaV3(PO4)3@C hierarchical nanofiber in high alignment: exploring a novel high-performance anode for aqueous rechargeable sodium batteries
Authors:: Ke, Linlin
Dong, Jing
Lin, Bo
Yu, Tiantian
Wang, Huifeng
Zhang, Sen
Deng, Chao
Abstract:: Abstract : A well-aligned NaV3 (PO4 )3 @C nanofiber with a hierarchical architecture and fast sodium intercalation capability is a novel high property anode for aqueous rechargeable sodium ion batteries. Abstract : The development of aqueous rechargeable sodium batteries (ARSBs) demands high-performance electrode materials, especially anode materials with low operating potential and competent electrochemical properties. The lithium/sodium vanadium phosphate family with good structural stability and abundant vanadium chemistry versatility is a promising series for energy storage applications. Herein, a new member in the sodium vanadium phosphate family, i.e. NaV3 (PO4 )3, is introduced as a novel anode candidate for ARSBs. For the first time, its sodium intercalation mechanism in an aqueous electrolyte is explored, and moreover, the well-aligned NaV3 (PO4 )3 @porous carbon nanofiber is constructed to fulfil its full potential. Based on the reversible phase transformation and 3D open framework, the NaV3 (PO4 )3 is demonstrated to be reliable in the aqueous electrolyte. Favored by the well-aligned, highly porous and hierarchical 1D nanoarchitecture, the freestanding aligned NaV3 (PO4 )3 @porous carbon hybrid film achieves fast electron/ion transport capability and good mechanical flexibility, resulting in its superior high-rate properties and excellent cycling durability. Moreover, a full cell is fabricated using the aligned NaV3 (PO4 )3 @C nanofiber as the anode and Na0.44 … (more)
Is Part Of:: Nanoscale. Volume 9:Issue 12(2017)
Journal:: Nanoscale
Issue:: Volume 9:Issue 12(2017)
Issue Display:: Volume 9, Issue 12 (2017)
Year:: 2017
Volume:: 9
Issue:: 12
Issue Sort Value:: 2017-0009-0012-0000
Page Start:: 4183
Page End:: 4190
Publication Date:: 2017-03-13
Subjects:: Nanoscience -- Periodicals
Nanotechnology -- Periodicals
620.505
Journal URLs:: http://www.rsc.org/Publishing/Journals/NR/Index.asp ↗
http://www.rsc.org/ ↗
DOI:: 10.1039/c7nr00793k ↗
Languages:: English
ISSNs:: 2040-3364
Deposit Type:: Legaldeposit
View Content:: Available online (eLD content is only available in our Reading Rooms) ↗
Physical Locations:: British Library DSC - 9830.266000
British Library DSC - BLDSS-3PM
British Library STI - ELD Digital store
Ingest File:: 934.xml